热带次生林五种优势树种水分利用模式

doi:10.1093/jpe/rtaf132

Journal of Plant Ecology ›› 2026, Vol. 19 ›› Issue (1): 1-.DOI: 10.1093/jpe/rtaf132

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热带次生林五种优势树种水分利用模式

收稿日期:2025-06-22 接受日期:2025-08-15 出版日期:2026-02-01 发布日期:2026-02-10

Water use patterns of five dominant tree species in tropical secondary forests

Shuting Yu¹, Danlin Huang¹, Qiaoyan Chen¹, Siyuan Cheng¹, Jie Li¹, Junna Feng¹, Xiaowei Guo², Yangong Du², Zhongmin Hu¹, Licong Dai^1*

¹Hainan Baoting Tropical Forest Ecosystem Observation and Research Station, School of Ecology, Hainan University, Haikou 570228, China
²Key Laboratory of Adaptation and Evolution of Plateau Biota, Qinghai Haibei National Field Research Station of Alpine Grassland Ecosystem, Northwest Institute of Plateau Biology Chinese Academy of Sciences, Xining 810001, China

^*Corresponding authors. E-mail: licongdai@hainanu.edu.cn (L. D.)

Received:2025-06-22 Accepted:2025-08-15 Online:2026-02-01 Published:2026-02-10
Supported by:
The study was financially supported by the National Natural Science Foundation of China (Grant No. 42207524, 32460283 and U23A2002), Hainan Provincial Natural Science Foundation (Grant NO. 325YXQN592)), Hainan Province Nanhai Xinxing Science and Technology Innovation Talent Platform (Grant NO. NHXXRCXM202303), and the start-up fund of Hainan University (Grant NO. KYQD(ZR)22085, KYQD(ZR)21096).

摘要/Abstract

摘要： 热带次生林水分利用策略对维持生态系统功能至关重要，但其优势树种水分利用模式尚不清楚。为此，本研究以海南岛热带次生林中五种共存优势树种为对象，采用稳定同位素示踪技术，探究了雨季不同树种水分利用来源及内在水分利用效率(intrinsic water use efficiency, WUE_i)的分布模式。结果表明：1) 浅层土壤(0–40 cm)的含水量明显高于深层土壤(40–100 cm)，且五种优势树种主要利用浅层土壤水，其水分贡献率高于深层土壤(57% vs. 43%)。2) 浅层土壤水分贡献率与其含水量无显著相关性而深层土壤水分贡献率则与其含水量呈显著正相关(P < 0.01)，表明深层土壤含水量对植物水分利用具有重要驱动作用。3) 物种间水分吸收比例的相似性指数均超过0.9，说明五种共存优势种的水分利用来源高度相似，但不同树种的WUEi存在显著的种间差异(P < 0.05)。植物水分来源和WUE_i均受到植物叶片功能性状的调控。上述结果表明，热带次生林优势树种间不存在土壤水源生态位分化，意味着在未来季节性干旱加剧情景下热带次生林优势树种可能面临种间水分竞争加剧的风险。

关键词: 稳定同位素, 水分利用来源, 水分利用效率, 热带次生林, 共存树种

Abstract: Although water use strategies of tree species are critical for maintaining tropical rainforest ecosystem function, the water use pattern of dominant tree species in tropical secondary forests remain poorly understood. In this study, with stable isotopes, we analyzed the plant water use sources and intrinsic water use efficiency (WUE_i) of five coexisting dominant tree species in tropical secondary rainforests on Hainan Island during the wet season. The results showed that the shallow soil (0–40 cm) had higher water content than that in deep soil (40–100 cm), the five dominant tree species in tropical secondary forests mainly utilized shallow soil water, with an absorption contribution of 57% compared to deep soil water (43%). Besides, there was no correlation between soil water contribution rate and soil water content in the shallow soil layer, but a significant positive relationship was observed in the deep soil layer (P < 0.01), indicating that deep soil water content has a driving effect on the deep water contribution rate. Meanwhile, the proportional similarity of water uptake between five species exceeded 0.9, suggesting that the water use source of the coexisting dominant species is highly similar. Moreover, the WUE_iof five dominant tree species differed significantly between species (P < 0.05). Both the plant water use source and WUE_i were affected by plant functional traits. Our study demonstrated that there was no soil water partitioning among five dominant tree species in tropical secondary forests, which may intensify water competition amid projected seasonal drought intensification.

Key words: stable isotopes, water use source, water use efficiency, tropical secondary forests, coexisting tree species

. 热带次生林五种优势树种水分利用模式[J]. Journal of Plant Ecology, 2026, 19(1): 1-.

Shuting Yu, Danlin Huang, Qiaoyan Chen, Siyuan Cheng, Jie Li, Junna Feng, Xiaowei Guo, Yangong Du, Zhongmin Hu, Licong Dai. Water use patterns of five dominant tree species in tropical secondary forests[J]. J Plant Ecol, 2026, 19(1): 1-.

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热带次生林五种优势树种水分利用模式

Water use patterns of five dominant tree species in tropical secondary forests

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